1 6912 116 [UNDERSTANDING OF THE PSYCHIATRY IN PALLIATIVE CARE: DYSFUNCTION OF THE REWARDING SYSTEM UNDER THE PAIN STATE ASSOCIATED WITH EXACERBATING PAIN]. RECENT HUMAN BRAIN IMAGING STUDIES HAVE EXAMINED DIFFERENCES IN ACTIVITY IN THE NUCLEUS ACCUMBENS (N.ACC.) IN RESPONSE TO HEAT STIMULI BETWEEN CONTROLS AND PATIENTS WITH CHRONIC PAIN, AND HAVE REVEALED THAT THE N.ACC. PLAYS A ROLE IN PREDICTING THE VALUE OF A NOXIOUS STIMULUS AND ITS OFFSET, AND IN THE CONSEQUENT CHANGES IN THE MOTIVATIONAL STATE. NEVERTHELESS, THE MOLECULAR MECHANISMS OF CHANGE IN THE CIRCUITRY INVOLVED IN EMOTION AND MOTIVATION IN RESPONSE TO CHRONIC PAIN STIMULI WERE NOT FULLY EXPLORED. ON THE OTHER HAND, IT HAS BEEN CONSIDERED THAT MICRO RNAS (MIRNAS) PLAY IMPORTANT ROLES AS KEY MODULATORS OF POST-TRANSCRIPTIONAL GENE EXPRESSION. WE HAVE REPORTED THAT CHANGES IN MIRNAS ARE ASSOCIATED WITH PREDICTED CHANGES IN GENE EXPRESSION OF CANDIDATE TARGETS IN THE N.ACC. UNDER NEUROPATHIC PAIN. THEREFORE, WE HAVE INTRODUCED A NEW INSIGHT INTO AN EPIGENETIC DYSFUNCTION OF "MESOLIMBIC MOTIVATION/VALUATION CIRCUITRY" UNDER A NEUROPATHIC PAIN-LIKE STATE. THESE FINDINGS RAISE INTRIGUING POSSIBILITIES THAT MIRNA-MODULATING CELLULAR EVENTS ALONG WITH EPIGENETIC MODIFICATIONS MAY BE ASSOCIATED WITH NEURAL PLASTICITY AND NEURONAL ADAPTIVE RESPONSES IN MESOLIMBIC MOTIVATION/VALUATION CIRCUITRY UNDER WHICH THE NEUROPATHIC PAIN MAY INDUCE NEGATIVE EMOTIONS, EXACERBATING PAIN. 2013 2 6866 60 [PAIN AND EMOTIONAL DYSREGULATION: CELLULAR MEMORY DUE TO PAIN]. GENETIC FACTORS ARE INVOLVED IN DETERMINANTS FOR THE RISK OF PSYCHIATRIC DISORDERS, AND NEUROLOGICAL AND NEURODEGENERATIVE DISEASES. CHRONIC PAIN STIMULI AND INTENSE PAIN HAVE EFFECTS AT A CELLULAR AND/OR GENE EXPRESSION LEVEL, AND WILL EVENTUALLY INDUCE "CELLULAR MEMORY DUE TO PAIN", WHICH MEANS THAT TISSUE DAMAGE, EVEN IF ONLY TRANSIENT, CAN ELICIT EPIGENETICALLY ABNORMAL TRANSCRIPTION/TRANSLATION AND POST-TRANSLATIONAL MODIFICATION IN RELATED CELLS DEPENDING ON THE DEGREE OR KIND OF INJURY OR ASSOCIATED CONDITIONS. SUCH CELL MEMORY/TRANSFORMATION DUE TO PAIN CAN CAUSE AN ABNORMALITY IN A FUNDAMENTAL INTRACELLULAR RESPONSE, SUCH AS A CHANGE IN THE THREE-DIMENSIONAL STRUCTURE OF DNA, TRANSCRIPTION, OR TRANSLATION. ON THE OTHER HAND, PAIN IS A MULTIDIMENSIONAL EXPERIENCE WITH SENSORY-DISCRIMINATIVE AND MOTIVATIONAL-AFFECTIVE COMPONENTS. RECENT HUMAN BRAIN IMAGING STUDIES HAVE EXAMINED DIFFERENCES IN ACTIVITY IN THE NUCLEUS ACCUMBENS BETWEEN CONTROLS AND PATIENTS WITH CHRONIC PAIN, AND HAVE REVEALED THAT THE NUCLEUS ACCUMBENS PLAYS A ROLE IN PREDICTING THE VALUE OF A NOXIOUS STIMULUS AND ITS OFFSET, AND IN THE CONSEQUENT CHANGES IN THE MOTIVATIONAL STATE. IN THIS REVIEW, WE PROVIDE A VERY BRIEF OVERVIEW OF A COMPREHENSIVE UNDERSTANDING OF CHRONIC PAIN ASSOCIATED WITH EMOTIONAL DYSREGULATION DUE TO TRANSCRIPTIONAL REGULATION, EPIGENETIC MODIFICATION AND MIRNA REGULATION. 2015 3 4327 38 MICRORNAS MODULATE INTERACTIONS BETWEEN STRESS AND RISK FOR COCAINE ADDICTION. EXPOSURE TO STRESS INCREASES VULNERABILITY TO DRUG ABUSE, AS WELL AS RELAPSE LIABILITY IN ADDICTED INDIVIDUALS. CHRONIC DRUG USE ALTERS STRESS RESPONSE IN A MANNER THAT INCREASES DRUG SEEKING BEHAVIORS AND RELAPSE. DRUG EXPOSURE AND WITHDRAWAL HAVE BEEN SHOWN TO ALTER STRESS RESPONSES, AND CORTICOSTEROID MEDIATORS OF STRESS HAVE BEEN SHOWN TO IMPACT ADDICTION-RELATED BRAIN FUNCTION AND DRUG-SEEKING BEHAVIOR. DESPITE THE DOCUMENTED INTERPLAY BETWEEN STRESS AND SUBSTANCE ABUSE, THE MECHANISMS BY WHICH STRESS EXPOSURE AND DRUG SEEKING INTERACT REMAIN LARGELY UNKNOWN. RECENT STUDIES INDICATE THAT MICRORNAS (MIRNA) PLAY A SIGNIFICANT ROLE IN STRESS MODULATION AS WELL AS ADDICTION-RELATED PROCESSES INCLUDING NEUROGENESIS, SYNAPSE DEVELOPMENT, PLASTICITY, DRUG ACQUISITION, WITHDRAWAL AND RELAPSE. MIRNAS ARE SHORT NON-CODING RNAS THAT FUNCTION AS BIDIRECTIONAL EPIGENETIC MODULATORS OF GENE EXPRESSION THROUGH IMPERFECT SEQUENCE TARGETED DEGRADATION AND/OR TRANSLATIONAL REPRESSION OF MRNAS. THEY SERVE AS DYNAMIC REGULATORS OF CNS PHYSIOLOGY AND PATHOPHYSIOLOGY, AND FACILITATE RAPID AND LONG-LASTING CHANGES TO COMPLEX SYSTEMS AND BEHAVIORS. MIRNAS FUNCTION IN GLUCOCORTICOID SIGNALING AND THE MESOLIMBIC DOPAMINE REWARD SYSTEM, AS WELL AS MOOD DISORDERS RELATED TO DRUG WITHDRAWAL. THE LITERATURE SUGGESTS MIRNAS PLAY A PIVOTAL ROLE IN THE INTERACTION BETWEEN EXPOSURES TO STRESS, ADDICTION-RELATED PROCESSES, AND NEGATIVE AFFECTIVE STATES RESULTING FROM EXTENDED DRUG WITHDRAWAL. THIS MANUSCRIPT REVIEWS RECENT EVIDENCE FOR THE ROLE OF MIRNAS IN THE MODULATION OF STRESS AND COCAINE RESPONSES, AND DISCUSSES POTENTIAL MEDIATION OF THE INTERACTION OF THESE SYSTEMS BY MIRNAS. UNCOVERING THE MECHANISM BEHIND THE ASSOCIATION OF STRESS AND DRUG TAKING HAS THE POTENTIAL TO IMPACT THE TREATMENT OF DRUG ABUSE AND PREVENTION OF RELAPSE. FURTHER COMPREHENSION OF THESE COMPLEX INTERACTIONS MAY PROVIDE PROMISING NEW TARGETS FOR THE TREATMENT OF DRUG ADDICTION. 2016 4 2598 31 EPIGENETICS OF THE DEPRESSED BRAIN: ROLE OF HISTONE ACETYLATION AND METHYLATION. MAJOR DEPRESSIVE DISORDER IS A CHRONIC, REMITTING SYNDROME INVOLVING WIDELY DISTRIBUTED CIRCUITS IN THE BRAIN. STABLE ALTERATIONS IN GENE EXPRESSION THAT CONTRIBUTE TO STRUCTURAL AND FUNCTIONAL CHANGES IN MULTIPLE BRAIN REGIONS ARE IMPLICATED IN THE HETEROGENEITY AND PATHOGENESIS OF THE ILLNESS. EPIGENETIC EVENTS THAT ALTER CHROMATIN STRUCTURE TO REGULATE PROGRAMS OF GENE EXPRESSION HAVE BEEN ASSOCIATED WITH DEPRESSION-RELATED BEHAVIOR, ANTIDEPRESSANT ACTION, AND RESISTANCE TO DEPRESSION OR 'RESILIENCE' IN ANIMAL MODELS, WITH INCREASING EVIDENCE FOR SIMILAR MECHANISMS OCCURRING IN POSTMORTEM BRAINS OF DEPRESSED HUMANS. IN THIS REVIEW, WE DISCUSS RECENT ADVANCES IN OUR UNDERSTANDING OF EPIGENETIC CONTRIBUTIONS TO DEPRESSION, IN PARTICULAR THE ROLE OF HISTONE ACETYLATION AND METHYLATION, WHICH ARE REVEALING NOVEL MECHANISTIC INSIGHT INTO THE SYNDROME THAT MAY AID IN THE DEVELOPMENT OF NOVEL TARGETS FOR DEPRESSION TREATMENT. 2013 5 4642 37 NEURONAL PLASTICITY: A LINK BETWEEN STRESS AND MOOD DISORDERS. ALTHOUGH STRESS REPRESENTS THE MAJOR ENVIRONMENTAL ELEMENT OF SUSCEPTIBILITY FOR MOOD DISORDERS, THE RELATIONSHIP BETWEEN STRESS AND DISEASE REMAINS TO BE FULLY ESTABLISHED. IN THE PRESENT ARTICLE WE REVIEW THE EVIDENCE IN SUPPORT FOR A ROLE OF NEURONAL PLASTICITY, AND IN PARTICULAR OF NEUROTROPHIC FACTORS. EVEN THOUGH DECREASED LEVELS OF NOREPINEPHRINE AND SEROTONIN MAY UNDERLIE DEPRESSIVE SYMPTOMS, COMPELLING EVIDENCE NOW SUGGESTS THAT MOOD DISORDERS ARE CHARACTERIZED BY REDUCED NEURONAL PLASTICITY, WHICH CAN BE BROUGHT ABOUT BY EXPOSURE TO STRESS AT DIFFERENT STAGES OF LIFE. INDEED THE EXPRESSION OF NEUROTROPHIC MOLECULES, SUCH AS THE NEUROTROPHIN BDNF, IS REDUCED IN DEPRESSED SUBJECTS AS WELL AS IN EXPERIMENTAL ANIMALS EXPOSED TO ADVERSE EXPERIENCE AT EARLY STAGES OF LIFE OR AT ADULTHOOD. THESE CHANGES SHOW AN ANATOMICAL SPECIFICITY AND MIGHT BE SUSTAINED BY EPIGENETIC MECHANISMS. PHARMACOLOGICAL INTERVENTION MAY NORMALIZE SUCH DEFECTS AND IMPROVE NEURONAL FUNCTION THROUGH THE MODULATION OF THE SAME FACTORS THAT ARE DEFECTIVE IN DEPRESSION. SEVERAL STUDIES HAVE DEMONSTRATED THAT CHRONIC, BUT NOT ACUTE, ANTIDEPRESSANT TREATMENT INCREASES THE EXPRESSION OF BDNF AND MAY ENHANCE ITS LOCALIZATION AT SYNAPTIC LEVEL. ANTIDEPRESSANT TREATMENT CAN NORMALIZE DEFICITS IN NEUROTROPHIN EXPRESSION PRODUCED BY CHRONIC STRESS PARADIGMS, BUT MAY ALSO ALTER THE MODULATION OF BDNF UNDER ACUTE STRESSFUL CONDITIONS. IN SUMMARY, THERE IS GOOD AGREEMENT IN CONSIDERING NEURONAL PLASTICITY, AND THE EXPRESSION OF KEY PROTEINS SUCH AS THE NEUROTROPHIN BDNF, AS A CENTRAL PLAYER FOR THE EFFECTS OF STRESS ON BRAIN FUNCTION AND ITS IMPLICATION FOR PSYCHOPATHOLOGY. ACCORDINGLY, EFFECTIVE TREATMENTS SHOULD NOT LIMIT THEIR EFFECTS TO THE CONTROL OF NEUROTRANSMITTER AND HORMONAL DYSFUNCTIONS, BUT SHOULD BE ABLE TO NORMALIZE DEFECTIVE MECHANISMS THAT SUSTAIN THE IMPAIRMENT OF NEURONAL PLASTICITY. 2009 6 110 26 A ROLE FOR ACTIVITY-DEPENDENT EPIGENETICS IN THE DEVELOPMENT AND TREATMENT OF MAJOR DEPRESSIVE DISORDER. CHRONIC STRESSORS, DURING DEVELOPMENTAL SENSITIVE PERIODS AND BEYOND, CONTRIBUTE TO THE RISK OF DEVELOPING PSYCHIATRIC CONDITIONS, INCLUDING MAJOR DEPRESSIVE DISORDER (MDD). EPIGENETIC MECHANISMS INCLUDING DNA METHYLATION AND HISTONE MODIFICATIONS, AT KEY STRESS RESPONSE AND NEUROTROPHIN GENES, ARE INCREASINGLY IMPLICATED IN MEDIATING THIS RISK. ALTHOUGH THE EXACT MECHANISMS THROUGH WHICH STRESSFUL ENVIRONMENTAL STIMULI ALTER THE EPIGENOME ARE STILL UNCLEAR, RESEARCH FROM THE LEARNING AND MEMORY FIELDS INDICATES THAT EPIGENOMIC MARKS CAN BE ALTERED, AT LEAST IN PART, THROUGH CALCIUM-DEPENDENT SIGNALING CASCADES IN DIRECT RESPONSE TO NEURONAL ACTIVITY. IN THIS REVIEW, WE HIGHLIGHT KEY FINDINGS FROM THE STRESS, MDD, AND LEARNING AND MEMORY FIELDS TO PROPOSE A MODEL WHERE STRESS REGULATES DOWNSTREAM CELLULAR FUNCTIONING THROUGH ACTIVITY-DEPENDENT EPIGENETIC CHANGES. FURTHERMORE, WE SUGGEST THAT BOTH TYPICAL AND NOVEL ANTIDEPRESSANT TREATMENTS MAY EXERT POSITIVE INFLUENCE THROUGH SIMILAR, ACTIVITY-DEPENDENT PATHWAYS. 2018 7 2194 29 EPIGENETIC MODIFICATION IN NEUROPATHIC PAIN. NEUROPATHIC PAIN IS CHARACTERIZED BY COMPLICATED COMBINATION OF POSITIVE (E.G., HYPERALGESIA AND ALLODYNIA) AND NEGATIVE (E.G., HYPOESTHESIA AND HYPOALGESIA) SYMPTOMS, AND IS OFTEN REFRACTORY TO CONVENTIONAL PHARMACOLOGICAL AGENTS, INCLUDING MORPHINE. ALTHOUGH THE MOLECULAR MECHANISMS FOR POSITIVE SYMPTOMS ARE EXTENSIVELY STUDIED, THOSE FOR NEGATIVE SYMPTOMS ARE POORLY UNDERSTOOD. THERE IS CONVINCING EVIDENCE THAT ALTERED GENE EXPRESSION WITHIN PERIPHERAL AND CENTRAL NERVOUS SYSTEMS IS A KEY MECHANISM FOR NEUROPATHIC PAIN; HOWEVER, ITS TRANSCRIPTIONAL MECHANISMS ARE POORLY UNDERSTOOD. EPIGENETIC MODIFICATIONS, SUCH AS DNA METHYLATION AND HISTONE MODIFICATIONS (E.G., ACETYLATION, METHYLATION, AND PHOSPHORYLATION), ARE KNOWN TO CAUSE STABLE GENE EXPRESSION VIA CHROMATIN REMODELING. THESE MECHANISMS HAVE A ROLE NOT ONLY IN THE DETERMINATION OF DEVELOPMENTAL CELL FATES, BUT ALSO IN THE PHYSIOLOGICAL AND PATHOLOGICAL PROCESSES IN NERVOUS SYSTEM. MOREOVER, EPIGENETIC THERAPIES USING EPIGENETIC MODIFYING COMPOUNDS ARE PROGRESSIVELY ADVANCED IN THE TREATMENTS OF DIVERSE DISEASES, INCLUDING CANCER AND NEUROLOGICAL DISEASES. IMPORTANTLY, THERE IS EMERGING EVIDENCE THAT A VARIETY OF GENES UNDERGO EPIGENETIC REGULATION VIA DNA METHYLATION AND HISTONE MODIFICATIONS WITHIN PERIPHERAL AND CENTRAL NERVOUS SYSTEMS, THEREBY CONTRIBUTING TO THE ALTERATIONS IN BOTH PAIN SENSITIVITY AND PHARMACOLOGICAL EFFICACY IN NEUROPATHIC PAIN. IN THIS REVIEW, WE WILL HIGHLIGHT THE EPIGENETIC GENE REGULATION UNDERLYING NEUROPATHIC PAIN, ESPECIALLY FOCUSING ON THE NEGATIVE SYMPTOMS. MOREOVER, WE WILL DISCUSS WHETHER EPIGENETIC MECHANISMS CAN SERVE AS A POTENTIAL TARGET TO TREAT NEUROPATHIC PAIN. 2015 8 2250 26 EPIGENETIC MODULATION OF OPIOID RECEPTORS BY DRUGS OF ABUSE. CHRONIC EXPOSURE TO DRUGS OF ABUSE PRODUCES PROFOUND CHANGES IN GENE EXPRESSION AND NEURAL ACTIVITY ASSOCIATED WITH DRUG-SEEKING AND TAKING BEHAVIOR. DYSREGULATION OF OPIOID RECEPTOR GENE EXPRESSION IS COMMONLY OBSERVED ACROSS A VARIETY OF ABUSED SUBSTANCES INCLUDING OPIOIDS, COCAINE, AND ALCOHOL. EARLY STUDIES IN CULTURED CELLS SHOWED THAT THE SPATIAL AND TEMPORAL GENE EXPRESSION OF OPIOID RECEPTORS ARE REGULATED BY EPIGENETIC MECHANISMS INCLUDING DNA AND HISTONE MODIFICATIONS AND NON-CODING RNAS. ACCUMULATING EVIDENCE INDICATE THAT DRUGS OF ABUSE CAN MODULATE OPIOID RECEPTOR GENE EXPRESSION BY TARGETING VARIOUS EPIGENETIC REGULATORY NETWORKS. BASED ON CURRENT CELLULAR AND ANIMAL MODELS OF SUBSTANCE USE DISORDER AND CLINICAL EVIDENCE, THIS REVIEW SUMMARIZES HOW CHRONIC DRUG EXPOSURE ALTERS THE GENE EXPRESSION OF MU, DELTA, KAPPA, AND NOCICEPTIN RECEPTORS VIA DNA AND HISTONE MODIFICATIONS. THE INFLUENCE OF DRUGS OF ABUSE ON EPIGENETIC MODULATORS, SUCH AS NON-CODING RNAS AND TRANSCRIPTION FACTORS, IS ALSO PRESENTED. FINALLY, THE THERAPEUTIC POTENTIAL OF MANIPULATING EPIGENETIC PROCESSES AS AN AVENUE TO TREAT SUBSTANCE USE DISORDER IS DISCUSSED. 2022 9 1181 22 CONVERGENT ACTIONS OF STRESS AND STIMULANTS VIA EPIGENETIC REGULATION OF NEURAL CIRCUITRY. THE DORSAL STRIATUM INTEGRATES PRIOR AND CURRENT INFORMATION TO GUIDE APPROPRIATE DECISION-MAKING. CHRONIC STRESS AND STIMULANT EXPOSURE INTERFERES WITH DECISION-MAKING, AND CAN CONFER SIMILAR COGNITIVE AND BEHAVIORAL INFLEXIBILITIES. THIS REVIEW EXAMINES THE LITERATURE ON ACUTE AND CHRONIC REGULATION OF THE EPIGENOME BY STRESS AND STIMULANTS. RECENT EVIDENCE SUGGESTS THAT EXPOSURES TO STRESS AND STIMULANTS SHARE SIMILARITIES IN THE MANNERS IN WHICH THEY REGULATE THE DORSAL STRIATUM EPIGENOME THROUGH DNA METHYLATION, TRANSPOSABLE ELEMENT ACTIVITY, AND HISTONE POST-TRANSLATIONAL MODIFICATIONS. THESE FINDINGS SUGGEST THAT CHRONIC STRESS AND STIMULANT EXPOSURE LEADS TO THE ACCUMULATION OF EPIGENETIC MODIFICATIONS THAT IMPAIR IMMEDIATE AND FUTURE NEURON FUNCTION AND ACTIVITY. SUCH EPIGENETIC MECHANISMS REPRESENT POTENTIAL THERAPEUTIC TARGETS FOR AMELIORATING CONVERGENT SYMPTOMS OF STRESS AND ADDICTION. 2022 10 4633 29 NEUROIMMUNE ACTIVATION DRIVES MULTIPLE BRAIN STATES. NEUROIMMUNE SIGNALING IS INCREASINGLY IDENTIFIED AS A CRITICAL COMPONENT OF NEURONAL PROCESSES UNDERLYING MEMORY, EMOTION AND COGNITION. THE INTERACTIONS OF MICROGLIA AND ASTROCYTES WITH NEURONS AND SYNAPSES, AND THE INDIVIDUAL CYTOKINES AND IMMUNE SIGNALING MOLECULES THAT MEDIATE THESE INTERACTIONS ARE A CURRENT FOCUS OF MUCH RESEARCH. HERE, WE DISCUSS NEUROIMMUNE ACTIVATION AS A MECHANISM TRIGGERING DIFFERENT STATES THAT MODULATE COGNITIVE AND AFFECTIVE PROCESSES TO ALLOW FOR APPROPRIATE BEHAVIOR DURING AND AFTER ILLNESS OR INJURY. WE PROPOSE THAT THESE STATES LIE ON A CONTINUUM FROM A NAIVE HOMEOSTATIC BASELINE STATE IN THE ABSENCE OF STIMULATION, TO ACUTE NEUROIMMUNE ACTIVITY AND CHRONIC ACTIVATION. IMPORTANTLY, CONSEQUENCES OF ILLNESS OR INJURY INCLUDING COGNITIVE DEFICITS AND MOOD IMPAIRMENTS CAN PERSIST LONG AFTER RESOLUTION OF IMMUNE SIGNALING. THIS SUGGESTS THAT NEUROIMMUNE ACTIVATION ALSO RESULTS IN AN ENDURING SHIFT IN THE HOMEOSTATIC BASELINE STATE WITH LONG LASTING CONSEQUENCES FOR NEURAL FUNCTION AND BEHAVIOR. SUCH DIFFERENT STATES CAN BE IDENTIFIED IN A MULTIDIMENSIONAL WAY, USING PATTERNS OF CYTOKINE AND GLIAL ACTIVATION, BEHAVIORAL AND COGNITIVE CHANGES, AND EPIGENETIC SIGNATURES. IDENTIFYING DISTINCT NEUROIMMUNE STATES AND THEIR CONSEQUENCES FOR NEURAL FUNCTION WILL PROVIDE A FRAMEWORK FOR PREDICTING VULNERABILITY TO DISORDERS OF MEMORY, COGNITION AND EMOTION BOTH DURING AND LONG AFTER RECOVERY FROM ILLNESS. 2018 11 5419 35 REGULATION OF GENE EXPRESSION AND PAIN STATES BY EPIGENETIC MECHANISMS. THE INDUCTION OF INFLAMMATORY OR NEUROPATHIC PAIN STATES IS KNOWN TO INVOLVE MOLECULAR ACTIVITY IN THE SPINAL SUPERFICIAL DORSAL HORN AND DORSAL ROOT GANGLIA, INCLUDING INTRACELLULAR SIGNALING EVENTS WHICH LEAD TO CHANGES IN GENE EXPRESSION. THESE CHANGES ULTIMATELY CAUSE ALTERATIONS IN MACROMOLECULAR SYNTHESIS, SYNAPTIC TRANSMISSION, AND STRUCTURAL ARCHITECTURE WHICH SUPPORT CENTRAL SENSITIZATION, A PROCESS REQUIRED FOR THE ESTABLISHMENT OF LONG-TERM PAIN STATES. EPIGENETIC MECHANISMS ARE ESSENTIAL FOR LONG-TERM SYNAPTIC PLASTICITY AND MODULATION OF GENE EXPRESSION. THIS IS BECAUSE EPIGENETIC MODIFICATIONS ARE KNOWN TO REGULATE GENE TRANSCRIPTION BY AIDING THE PHYSICAL RELAXATION OR CONDENSATION OF CHROMATIN. THESE PROCESSES ARE THEREFORE POTENTIAL REGULATORS OF THE MOLECULAR CHANGES UNDERLYING PERMANENT PAIN STATES. A HANDFUL OF STUDIES HAVE EMERGED IN THE FIELD OF PAIN EPIGENETICS; HOWEVER, THE FIELD IS STILL VERY MUCH IN ITS INFANCY. THIS CHAPTER DRAWS UPON OTHER SPECIALITIES WHICH HAVE EXTENSIVELY INVESTIGATED EPIGENETIC MECHANISMS, SUCH AS LEARNING AND MEMORY AND ONCOLOGY. AFTER DEFINING EPIGENETICS AS WELL AS THE RECENT FIELD OF "NEUROEPIGENETICS" AND THE MAIN MOLECULAR MECHANISMS INVOLVED, THIS CHAPTER DESCRIBES THE ROLE OF THESE MECHANISMS IN THE SYNAPTIC PLASTICITY SEEN IN LEARNING AND MEMORY, AND ADDRESS THOSE EPIGENETIC MECHANISMS THAT HAVE BEEN LINKED WITH THE DEVELOPMENT OF ACUTE AND PROLONGED PAIN STATES. FINALLY, THE IDEA THAT LONG-LASTING EPIGENETIC MODIFICATIONS COULD CONTRIBUTE TO THE TRANSITION FROM ACUTE TO CHRONIC PAIN STATES BY SUPPORTING MALADAPTIVE MOLECULAR CHANGES IS DISCUSSED. 2015 12 1252 29 CURRENT PERSPECTIVES ON THE NEUROBIOLOGY OF DRUG ADDICTION: A FOCUS ON GENETICS AND FACTORS REGULATING GENE EXPRESSION. DRUG ADDICTION IS A CHRONIC, RELAPSING DISORDER DEFINED BY CYCLIC PATTERNS OF COMPULSIVE DRUG SEEKING AND TAKING INTERSPERSED WITH EPISODES OF ABSTINENCE. WHILE GENETIC VARIABILITY MAY INCREASE THE RISK OF ADDICTIVE BEHAVIOURS IN AN INDIVIDUAL, EXPOSURE TO A DRUG RESULTS IN NEUROADAPTATIONS IN INTERCONNECTED BRAIN CIRCUITS WHICH, IN SUSCEPTIBLE INDIVIDUALS, ARE BELIEVED TO UNDERLIE THE TRANSITION TO, AND MAINTENANCE OF, AN ADDICTED STATE. THESE ADAPTATIONS CAN OCCUR AT THE CELLULAR, MOLECULAR, OR (EPI)GENETIC LEVEL AND ARE ASSOCIATED WITH SYNAPTIC PLASTICITY AND ALTERED GENE EXPRESSION, THE LATTER BEING MEDIATED VIA BOTH FACTORS AFFECTING TRANSLATION (EPIGENETICS) AND TRANSCRIPTION (NON CODING MICRORNAS) OF THE DNA OR RNA ITSELF. NEW ADVANCES USING TECHNIQUES SUCH AS OPTOGENETICS HAVE THE POTENTIAL TO INCREASE OUR UNDERSTANDING OF THE MICROCIRCUITRY MEDIATING ADDICTIVE BEHAVIOURS. HOWEVER, THE PROCESSES LEADING TO ADDICTION ARE COMPLEX AND MULTIFACTORIAL AND THUS WE FACE A MAJOR CONTEMPORARY CHALLENGE TO ELUCIDATE THE FACTORS IMPLICATED IN THE DEVELOPMENT AND MAINTENANCE OF AN ADDICTED STATE. 2012 13 2058 22 EPIGENETIC CONTROL OF GENE EXPRESSION IN THE ALCOHOLIC BRAIN. CHRONIC ALCOHOL EXPOSURE CAUSES WIDESPREAD CHANGES IN BRAIN GENE EXPRESSION IN HUMANS AND ANIMAL MODELS. MANY OF THESE CONTRIBUTE TO CELLULAR ADAPTATIONS THAT ULTIMATELY LEAD TO BEHAVIORAL TOLERANCE AND ALCOHOL DEPENDENCE. THERE IS AN EMERGING APPRECIATION FOR THE ROLE OF EPIGENETIC PROCESSES IN ALCOHOL-INDUCED CHANGES IN BRAIN GENE EXPRESSION AND BEHAVIOR. FOR EXAMPLE, CHRONIC ALCOHOL EXPOSURE PRODUCES CHANGES IN DNA AND HISTONE METHYLATION, HISTONE ACETYLATION, AND MICRORNA EXPRESSION THAT AFFECT EXPRESSION OF MULTIPLE GENES IN VARIOUS TYPES OF BRAIN CELLS (I.E., NEURONS AND GLIA) AND CONTRIBUTE TO BRAIN PATHOLOGY AND BRAIN PLASTICITY ASSOCIATED WITH ALCOHOL ABUSE AND DEPENDENCE. DRUGS TARGETING THE EPIGENETIC "MASTER REGULATORS" ARE EMERGING AS POTENTIAL THERAPEUTICS FOR NEURODEGENERATIVE DISORDERS AND DRUG ADDICTION. 2013 14 5928 26 TARGETING EPIGENETIC MECHANISMS FOR PAIN RELIEF. EPIGENETIC CHANGES ARE CHEMICAL MODIFICATIONS TO CHROMATIN THAT MODULATE GENE ACTIVITY WITHOUT ALTERING THE DNA SEQUENCE. WHILE RESEARCH ON EPIGENETICS HAS GROWN EXPONENTIALLY OVER THE PAST FEW YEARS, VERY FEW STUDIES HAVE INVESTIGATED EPIGENETIC MECHANISMS IN RELATION TO PAIN STATES. HOWEVER, EPIGENETIC MECHANISMS ARE CRUCIAL TO MEMORY FORMATION THAT REQUIRES SIMILAR SYNAPTIC PLASTICITY TO PAIN PROCESSING, INDICATING THAT THEY MAY PLAY A KEY ROLE IN THE CONTROL OF PAIN STATES. THIS ARTICLE REVIEWS THE EARLY EVIDENCE SUGGESTING THAT EPIGENETIC MECHANISMS ARE ENGAGED AFTER INJURY AND IN CHRONIC PAIN STATES, AND THAT DRUGS USED CLINICALLY TO TARGET THE EPIGENETIC MACHINERY FOR THE TREATMENT OF CANCER MIGHT BE USEFUL FOR THE MANAGEMENT OF CHRONIC PAIN. 2012 15 2252 35 EPIGENETIC MODULATION OF VISCERAL NOCICEPTION. EPIGENETICS IS A PROCESS THAT ALTERS GENE ACTIVITY OR PHENOTYPE WITHOUT ANY CHANGES IN THE UNDERLYING DNA SEQUENCE OR GENOTYPE. THESE BIOLOGICAL CHANGES MAY HAVE DELETERIOUS EFFECTS AND CAN LEAD TO VARIOUS HUMAN DISEASES. ONGOING RESEARCH IS CONTINUING TO ILLUMINATE THE ROLE OF EPIGENETICS IN A VARIETY OF PATHOPHYSIOLOGIC PROCESSES. SEVERAL CATEGORIES OF EPIGENETIC MECHANISMS HAVE BEEN STUDIED INCLUDING CHROMATIN REMODELING, DNA METHYLATION, HISTONE MODIFICATION, AND NON-CODING RNA MECHANISMS. THESE EPIGENETIC CHANGES CAN HAVE A LONG-TERM EFFECT ON GENE EXPRESSION WITHOUT ANY UNDERLYING CHANGES IN THE DNA SEQUENCES. THE UNDERLYING PATHOPHYSIOLOGY OF DISORDERS OF BRAIN-GUT INTERACTION AND STRESS-INDUCED VISCERAL PAIN ARE NOT FULLY UNDERSTOOD AND THE ROLE OF EPIGENETIC MECHANISMS IN THESE DISORDERS ARE STARTING TO BE BETTER UNDERSTOOD. CURRENT WORK IS UNDERWAY TO DETERMINE HOW EPIGENETICS PLAYS A ROLE IN THE NEUROBIOLOGY OF PATIENTS WITH CHRONIC VISCERAL PAIN AND HEIGHTENED VISCERAL NOCICEPTION. MORE RECENTLY, BOTH ANIMAL MODELS AND HUMAN STUDIES HAVE SHOWN HOW EPIGENETIC REGULATION MODULATES STRESS-INDUCED VISCERAL PAIN. WHILE MUCH MORE WORK IS NEEDED TO FULLY DELINEATE THE MECHANISTIC ROLE OF EPIGENETICS IN THE NEUROBIOLOGY OF CHRONIC VISCERAL NOCICEPTION, THE CURRENT STUDY BY LOUWIES ET AL., IN NEUROGASTROENTEROLOGY AND MOTILITY PROVIDES ADDITIONAL EVIDENCE SUPPORTING THE INVOLVEMENT OF EPIGENETIC ALTERATIONS IN THE CENTRAL NUCLEUS OF THE AMYGDALA IN STRESS-INDUCED VISCERAL HYPERSENSITIVITY IN RODENTS. 2022 16 5828 32 STRESS, EPIGENETICS, AND ALCOHOLISM. ACUTE AND CHRONIC STRESSORS HAVE BEEN ASSOCIATED WITH ALTERATIONS IN MOOD AND INCREASED ANXIETY THAT MAY EVENTUALLY RESULT IN THE DEVELOPMENT OF STRESS-RELATED PSYCHIATRIC DISORDERS. STRESS AND ASSOCIATED DISORDERS, INCLUDING ANXIETY, ARE KEY FACTORS IN THE DEVELOPMENT OF ALCOHOLISM BECAUSE ALCOHOL CONSUMPTION CAN TEMPORARILY REDUCE THE DRINKER'S DYSPHORIA. ONE MOLECULE THAT MAY HELP MEDIATE THE RELATIONSHIP BETWEEN STRESS AND ALCOHOL CONSUMPTION IS BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), A PROTEIN THAT REGULATES THE STRUCTURE AND FUNCTION OF THE SITES WHERE TWO NERVE CELLS INTERACT AND EXCHANGE NERVE SIGNALS (I.E., SYNAPSES) AND WHICH IS INVOLVED IN NUMEROUS PHYSIOLOGICAL PROCESSES. ABERRANT REGULATION OF BDNF SIGNALING AND ALTERATIONS IN SYNAPSE ACTIVITY (I.E., SYNAPTIC PLASTICITY) HAVE BEEN ASSOCIATED WITH THE PATHOPHYSIOLOGY OF STRESS-RELATED DISORDERS AND ALCOHOLISM. MECHANISMS THAT CONTRIBUTE TO THE REGULATION OF GENETIC INFORMATION WITHOUT MODIFICATION OF THE DNA SEQUENCE (I.E., EPIGENETIC MECHANISMS) MAY PLAY A ROLE IN THE COMPLEX CONTROL OF BDNF SIGNALING AND SYNAPTIC PLASTICITY-FOR EXAMPLE, BY MODIFYING THE STRUCTURE OF THE DNA-PROTEIN COMPLEXES (I.E., CHROMATIN) THAT MAKE UP THE CHROMOSOMES AND THEREBY MODULATING THE EXPRESSION OF CERTAIN GENES. STUDIES REGARDING THE EPIGENETIC CONTROL OF BDNF SIGNALING AND SYNAPTIC PLASTICITY PROVIDE A PROMISING DIRECTION TO UNDERSTAND THE MECHANISMS MEDIATING THE INTERACTION BETWEEN STRESS AND ALCOHOLISM. 2012 17 2003 27 EPIGENETIC AND TRANSCRIPTIONAL CONTROL OF THE OPIOID PRODYNORPHINE GENE: IN-DEPTH ANALYSIS IN THE HUMAN BRAIN. NEUROPEPTIDES SERVE AS NEUROHORMONES AND LOCAL PARACRINE REGULATORS THAT CONTROL NEURAL NETWORKS REGULATING BEHAVIOR, ENDOCRINE SYSTEM AND SENSORIMOTOR FUNCTIONS. THEIR EXPRESSION IS CHARACTERIZED BY EXCEPTIONALLY RESTRICTED PROFILES. CIRCUIT-SPECIFIC AND ADAPTIVE EXPRESSION OF NEUROPEPTIDE GENES MAY BE DEFINED BY TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS CONTROLLED BY CELL TYPE AND SUBTYPE SEQUENCE-SPECIFIC TRANSCRIPTION FACTORS, INSULATORS AND SILENCERS. THE OPIOID PEPTIDE DYNORPHINS PLAY A CRITICAL ROLE IN NEUROLOGICAL AND PSYCHIATRIC DISORDERS, PAIN PROCESSING AND STRESS, WHILE THEIR MUTATIONS CAUSE PROFOUND NEURODEGENERATION IN THE HUMAN BRAIN. IN THIS REVIEW, WE FOCUS ON THE PRODYNORPHIN GENE AS A MODEL FOR THE IN-DEPTH EPIGENETIC AND TRANSCRIPTIONAL ANALYSIS OF EXPRESSION OF THE NEUROPEPTIDE GENES. PRODYNORPHIN STUDIES MAY PROVIDE A FRAMEWORK FOR ANALYSIS OF MECHANISMS RELEVANT FOR REGULATION OF NEUROPEPTIDE GENES IN NORMAL AND PATHOLOGICAL HUMAN BRAIN. 2021 18 2963 26 GENETIC AND EPIGENETIC MECHANISMS LINKING PAIN AND PSYCHIATRIC DISORDERS. THE NEUROPHYSIOLOGICAL LINK BETWEEN NEUROPATHIC PAIN AND DEPRESSION REMAINS UNKNOWN DESPITE EVIDENT HIGH COMORBIDITY OF THESE TWO DISORDERS. HOWEVER, THERE IS CONVINCING EVIDENCE THAT GENOTYPE PLAYS A ROLE IN BOTH PAIN AND DEPRESSION. USING VARIOUS TYPES OF GENETIC ANALYSIS - POPULATION GENETICS, CYTOGENETICS AND MOLECULAR TECHNOLOGIES - SPECIFIC GENES HAVE BEEN IMPLICATED IN MEDIATING ALMOST ALL ASPECTS OF NOCICEPTION AND MOOD DISORDERS. THE CURRENT REVIEW ATTEMPTS TO IDENTIFY SPECIFIC GENES AND EPIGENETIC MECHANISMS COMMON TO BOTH DISORDERS. IT IS CONCLUDED THAT EXTERNAL AND INTERNAL FACTORS (INFLAMMATION, STRESS, GENDER, ETC.) THAT CONTRIBUTE TO THE PATHOLOGIES MAY DO SO THROUGH EPIGENETIC MECHANISMS THAT MAY AFFECT EXPRESSION OF THESE PARTICULAR GENES. THE POSSIBLE INVOLVEMENT OF EPIGENETIC REGULATION IN PAIN AND PSYCHIATRIC DISORDERS SUGGESTS THAT TREATMENTS TARGETING EPIGENETIC MECHANISMS THAT MEDIATE ADVERSE LIFE EVENTS SHOULD BE CONSIDERED. 2015 19 2214 41 EPIGENETIC MODIFICATIONS ASSOCIATED TO NEUROINFLAMMATION AND NEUROPATHIC PAIN AFTER NEURAL TRAUMA. ACCUMULATING EVIDENCE SUGGESTS THAT EPIGENETIC ALTERATIONS LIE BEHIND THE INDUCTION AND MAINTENANCE OF NEUROPATHIC PAIN. NEUROPATHIC PAIN IS USUALLY A CHRONIC CONDITION CAUSED BY A LESION, OR PATHOLOGICAL CHANGE, WITHIN THE NERVOUS SYSTEM. NEUROPATHIC PAIN APPEARS FREQUENTLY AFTER NERVE AND SPINAL CORD INJURIES OR DISEASES, PRODUCING A DEBILITATION OF THE PATIENT AND A DECREASE OF THE QUALITY OF LIFE. AT THE CELLULAR LEVEL, NEUROPATHIC PAIN IS THE RESULT OF NEURONAL PLASTICITY SHAPED BY AN INCREASE IN THE SENSITIVITY AND EXCITABILITY OF SENSORY NEURONS OF THE CENTRAL AND PERIPHERAL NERVOUS SYSTEM. ONE OF THE MECHANISMS THOUGHT TO CONTRIBUTE TO HYPEREXCITABILITY AND THEREFORE TO THE ONTOGENY OF NEUROPATHIC PAIN IS THE ALTERED EXPRESSION, TRAFFICKING, AND FUNCTIONING OF RECEPTORS AND ION CHANNELS EXPRESSED BY PRIMARY SENSORY NEURONS. BESIDES, NEURONAL AND GLIAL CELLS, SUCH AS MICROGLIA AND ASTROCYTES, TOGETHER WITH BLOOD BORNE MACROPHAGES, PLAY A CRITICAL ROLE IN THE INDUCTION AND MAINTENANCE OF NEUROPATHIC PAIN BY RELEASING POWERFUL NEUROMODULATORS SUCH AS PRO-INFLAMMATORY CYTOKINES AND CHEMOKINES, WHICH ENHANCE NEURONAL EXCITABILITY. ALTERED GENE EXPRESSION OF NEURONAL RECEPTORS, ION CHANNELS, AND PRO-INFLAMMATORY CYTOKINES AND CHEMOKINES, HAVE BEEN ASSOCIATED TO EPIGENETIC ADAPTATIONS OF THE INJURED TISSUE. WITHIN THIS REVIEW, WE DISCUSS THE INVOLVEMENT OF THESE EPIGENETIC CHANGES, INCLUDING HISTONE MODIFICATIONS, DNA METHYLATION, NON-CODING RNAS, AND ALTERATION OF CHROMATIN MODIFIERS, THAT HAVE BEEN SHOWN TO TRIGGER MODIFICATION OF NOCICEPTION AFTER NEURAL LESIONS. IN PARTICULAR, THE FUNCTION ON THESE PROCESSES OF EZH2, JMJD3, MECP2, SEVERAL HISTONE DEACETYLASES (HDACS) AND HISTONE ACETYL TRANSFERASES (HATS), G9A, DNMT, REST AND DIVERSE NON-CODING RNAS, ARE DESCRIBED. DESPITE THE EFFORT ON DEVELOPING NEW THERAPIES, CURRENT TREATMENTS HAVE ONLY PRODUCED LIMITED RELIEF OF THIS PAIN IN A PORTION OF PATIENTS. THUS, THE PRESENT REVIEW AIMS TO CONTRIBUTE TO FIND NOVEL TARGETS FOR CHRONIC NEUROPATHIC PAIN TREATMENT. 2018 20 1509 26 DNA METHYLATION AND NON-CODING RNAS DURING TISSUE-INJURY ASSOCIATED PAIN. WHILE ABOUT HALF OF THE POPULATION EXPERIENCE PERSISTENT PAIN ASSOCIATED WITH TISSUE DAMAGES DURING THEIR LIFETIME, CURRENT SYMPTOM-BASED APPROACHES OFTEN FAIL TO REDUCE SUCH PAIN TO A SATISFACTORY LEVEL. TO PROVIDE BETTER PATIENT CARE, MECHANISM-BASED ANALGESIC APPROACHES MUST BE DEVELOPED, WHICH NECESSITATES A COMPREHENSIVE UNDERSTANDING OF THE NOCICEPTIVE MECHANISM LEADING TO TISSUE INJURY-ASSOCIATED PERSISTENT PAIN. EPIGENETIC EVENTS LEADING THE ALTERED TRANSCRIPTION IN THE NERVOUS SYSTEM ARE PIVOTAL IN THE MAINTENANCE OF PAIN IN TISSUE INJURY. HOWEVER, THE MECHANISMS THROUGH WHICH THOSE EVENTS CONTRIBUTE TO THE PERSISTENCE OF PAIN ARE NOT FULLY UNDERSTOOD. THIS REVIEW PROVIDES A SUMMARY AND CRITICAL EVALUATION OF TWO EPIGENETIC MECHANISMS, DNA METHYLATION AND NON-CODING RNA EXPRESSION, ON TRANSCRIPTIONAL MODULATION IN NOCICEPTIVE PATHWAYS DURING THE DEVELOPMENT OF TISSUE INJURY-ASSOCIATED PAIN. WE ASSESS THE PRE-CLINICAL DATA AND THEIR TRANSLATIONAL IMPLICATION AND EVALUATE THE POTENTIAL OF CONTROLLING DNA METHYLATION AND NON-CODING RNA EXPRESSION AS NOVEL ANALGESIC APPROACHES AND/OR BIOMARKERS OF PERSISTENT PAIN. 2022